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Josiah Sinclair
Josiah Sinclair
Verified email at mit.edu
Title
Cited by
Cited by
Year
Weak-value amplification of the nonlinear effect of a single photon
M Hallaji, A Feizpour, G Dmochowski, J Sinclair, AM Steinberg
Nature Physics, 2017
962017
Dielectric-barrier discharges in two-dimensional lattice potentials
J Sinclair, M Walhout
Physical Review Letters 108 (3), 035005, 2012
572012
Weak-value amplification and optimal parameter estimation in the presence of correlated noise
J Sinclair, M Hallaji, AM Steinberg, J Tollaksen, AN Jordan
Physical Review A 96 (052128), 2017
492017
Any-to-any connected cavity-mediated architecture for quantum computing with trapped ions or rydberg arrays
J Ramette, J Sinclair, Z Vendeiro, A Rudelis, M Cetina, V Vuletić
PRX Quantum 3 (1), 010344, 2022
402022
Observation of a large, resonant, cross-Kerr nonlinearity in a cold Rydberg gas
J Sinclair, D Angulo, N Lupu-Gladstein, K Bonsma-Fisher, AM Steinberg
Physical Review Research 1 (3), 033193, 2019
392019
Machine-learning-accelerated Bose-Einstein condensation
Z Vendeiro, J Ramette, A Rudelis, M Chong, J Sinclair, L Stewart, A Urvoy, ...
Physical Review Research 4 (4), 043216, 2022
212022
Fault-tolerant connection of error-corrected qubits with noisy links
J Ramette, J Sinclair, NP Breuckmann, V Vuletić
arXiv preprint arXiv:2302.01296, 2023
102023
Interpreting weak value amplification with a toy realist model
J Sinclair, D Spierings, A Brodutch, AM Steinberg
Physics Letters A 383 (24), 2839-2845, 2019
10*2019
Measuring the time atoms spend in the excited state due to a photon they do not absorb
J Sinclair, D Angulo, K Thompson, K Bonsma-Fisher, A Brodutch, ...
PRX Quantum 3 (1), 010314, 2022
32022
All-Connected, Cavity-Mediated Quantum Computing with Local Quantum Processors
J Ramette, J Sinclair, V Vuletic
US Patent App. 17/460,385, 2022
22022
Weakly measuring the time a transmitted photon causes atoms to spend in the excited state
J Sinclair
University of Toronto (Canada), 2021
12021
Generation of doubly excited Rydberg states based on Rydberg antiblockade in a cold atomic ensemble
J Taylor, J Sinclair, K Bonsma-Fisher, D England, M Spanner, K Heshami
arXiv preprint arXiv:1912.05675, 2019
12019
Simulating one-dimensional systems with stationary Rydberg dark polaritons
H Pimenta, AZ Goldberg, J Sinclair, K Bonsma-Fisher
arXiv preprint arXiv:1803.07565, 2018
12018
Counter-factual carving exponentially improves entangled-state fidelity
J Ramette, J Sinclair, V Vuletić
arXiv preprint arXiv:2401.11407, 2024
2024
Degradation of Ta2O5 / SiO2 dielectric cavity mirrors in ultra-high vacuum
A Rudelis, B Hu, J Sinclair, E Bytyqi, A Schwartzman, R Brenes, ...
Optics Express 31 (24), 39670-39680, 2023
2023
How much time does a photon spend as an atomic excitation before being transmitted?
K Thompson, K Li, D Angulo, VM Nixon, J Sinclair, AV Sivakumar, ...
arXiv preprint arXiv:2310.00432, 2023
2023
How much time do transmitted photons spend as atomic excitations? Theory and experimental progress
K Thompson, K Li, D Angulo Murcillo, VM Nixon, J Sinclair, A Jiao, ...
APS Division of Atomic, Molecular and Optical Physics Meeting Abstracts 2023 …, 2023
2023
Fault-Tolerant Connection of Error-Corrected Qubits with Noisy Links
J Sinclair, J Ramette, N Breuckmann, V Vuletic
APS Division of Atomic, Molecular and Optical Physics Meeting Abstracts 2023 …, 2023
2023
A scalable, modular, fault-tolerant quantum computer based on Rydberg arrays and optical cavities
J Sinclair, J Ramette, N Breuckmann, V Vuletic
APS Division of Atomic, Molecular and Optical Physics Meeting Abstracts 2023 …, 2023
2023
A Cavity-Coupled Rydberg Atom Array Platform for Quantum Computing
A Rudelis
Massachusetts Institute of Technology, 2023
2023
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